Sonar Flow Meters Enhance Well Performance in Iraq

Transcription

Sonar Flow Meters Enhance Well Performance in Iraq
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OIL & GAS
Sonar Flow Meters Enhance
Well Performance in Iraq
Production surveillance can extend well life when combined with artificial lift techniques.
By Sylvia Haidar
Expro Meters
A
bout 125,000 electrical
submersible pumps (ESPs)
operate globally in artificial
lift applications, producing
60 percent of the world’s oil.
These ESPs require significant
investments of money and time
to install and operate. The health,
efficiency and life of these pumps
are paramount to the bottom line.
Why Invest in
Flow Monitoring?
Although ESP systems can improve
recovery at tired wells, they can
also suffer from failures at startup.
Production surveillance at the
wellhead prevents some failures
by confirming the successful
installation and commissioning of
the ESP system.
With production surveillance,
operators can ensure the system
is the right size for the well. A
system that is too large for the
reservoir results in pump-off, while
a system that is too small will not
achieve maximum production. In
addition, production surveillance
can confirm volumetric flow
rates, production index (PI) and
efficiency on the lift curve.
Most oil wells are not equipped
with flow metering. Trailermounted well test separators were
traditionally used to gauge the
production of ESP-powered wells.
The separators often performed
poorly during operation, resulting
in a three- to five-day test duration
per well. In most cases, high costs
prevent operators from installing
traditional multiphase flow meters
on each well.
Sonar Flow Meters
Sonar flow meters are an efficient
monitoring technology for ESP
systems in artificial lift. A sonar
flow meter directly measures the
flow velocity within the flow line.
A multiphase flow engine
calculates produced fluid
properties and individual phase
flow rates. The engine interprets
the flow velocity in terms of gas
and liquid flow rates, based on
properties at the line pressure and
temperature conditions where
the flow meter is attached. Once
the gas and liquid flow rates are
determined at actual conditions,
the oil, water and gas flow rates
are converted to and reported at
standard conditions.
Sonar flow meters can be
installed upstream or downstream
of the choke manifold, allowing
flexibility in field installation.
Wells are tested at fixed flowing
conditions or at multiple choke
settings and ESP drive frequencies.
Depending on the time needed to
install and commission the meter,
multi-rate testing of wells can be
accomplished in a single day.
Operators step through several
ESP drive frequencies during sonar
testing to evaluate the production
Production surveillance, such as sonar flow meters, can predict performance issues with
electrical submersible pumps. (Image courtesy of Expro Meters)
M a y /J un e 2 0 1 5 | Pumps & S y st e m s MEN A
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rate at various set points. The data from the sonar flow
meters is used to ensure correct installation of ESPs,
to monitor and diagnose performance, to optimize
drive frequency and choke settings, and to detect the
onset of mechanical failure. This information enables
intelligent decision-making in order to maximize oil
production rates, influences workover strategies and
extends the run-life of ESPs.
Closing Leaks
In Iraq, much of the wellhead infrastructure and
surface equipment is aging and in need of repair. An
aggressive reinvestment campaign aims to replace
infrastructure in the country. Changes in the oil
market have left operators seeking cost-effective ways
to enhance existing equipment.
A local field operator was challenged to continue oil
production while leveraging the current infrastructure.
Many of the wells in the region’s fields produce
hydrocarbons from both the tubing and annulus and
are equipped with a nonreturn valve (NRV). The NRV
balances production between tubing and annulus and
prevents recycling back down the annulus.
In May 2013, a sonar flow meter was attached to
the comingled flow line downstream of the choke. The
meter observed no flow at this location, while onsite
diagnostics, including wellhead pressure, indicated the
well was flowing. Because the anomaly could not be
isolated, a sonar meter was placed on the production
wing flow line upstream of the choke.
The relocation of the sonar meter enabled the
technician to observe and conclude that the NRV—on
the casing flow line upstream of the choke—could
be leaking and that the well was flowing from the
tubing into the annulus. The meter was relocated from
the on-production wing flow line to the casing flow
line, where a flow rate was measured in the reverse
direction. This confirmed earlier suspicions that the
NRV was leaking and the flow was cycling within
the well.
The operator used the flow meter data to diagnose
the failure of the NRV and take remedial measures to
protect the ESP system and avert costly workover.
Suha (Sylvia) Haidar is a sales and
marketing professional and has spent six
years with Expro Meters. For more, visit
www.exprometers.com.
Reliable waste water technology
The Lee Tunnel in London is one of Britain’s largest
waste water and sewage treatment projects. The
tunnel will help to prevent an untreated mix of storm
water and sewage from entering River Thames
during periods of heavy rainfall. Six pumps
manufactured by KSB are installed at a depth of
more than 80 m, with impellers measuring 2.2 m
in diameter and weighing 54 tons each. KSB
Technology will ensure reliable waste water and
sewage transport no matter how heavy the rainfall.
KSB Middle East FZE
MENA Regional Headquarters
+ 971 4 803 5000
dubai@ksb.com
www.ksb.com
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